CA2109080A1 - Multiple use commodity collection and storage system - Google Patents

Abstract

A multiple use commodity collection and storage system, comprises a plurality of collection stations (11, 12, 13) remotely located, each for receiving a plurality of different predetermined post-consumer recyclable commodities. Each station includes a consumer selectable insert port (14, 15, 16) for receiving each different predetermined type of commodity; a pre-selection me-chanism associated with each insert port for automatically verifying that an inserted commodity is of the predetermined type; a microprocessor for storing data corresponding to the commodities verified by the pre-selection mechanism; a device for densify-ing the commodities received in each insert port and verified by the pre-selection mechanism to be of the predetermined type; a bulk storage device (30, 31, 32) including a segregated storage area for separately storing each predetermined type of densified commodity; a transfer device for automatically transferring each predetermined type of densified commodity from the densifying device to the corresponding segregated storage area in the bulk storage device and continuously maintaining the segregation of the commodity types during the transfer; and a dispenser for issuing at least one token in response to the receipt of a predeter-mined commodity. The system also includes at least one commodity collection vehicle (90) including a transport compartment, and a mechanism for automatically loading at least one of the densified commodities into the transport compartment.

Description

CMp~-v-oly l-pA-M~n ~!~en 04 ,, ,; ~ ? . ~ 4 , 2~ a ~u 4~,Y '~ 4~ 6~

~sl~iplQ~ C~di~y Col~ction and storag~ sy~t~
~" ~h~ 1 Fial~
~i~ in~rontion rol~ to ~ ion~ ~nd ~oraq~ o~
rC~ e com~nodi~ie~, and ~ore partialllarly to ~iy6~ f~r ~c~lle~ting, d~nsi~ying and s~oring u~e~ be~erage ~nt~n~rs of ~riou~ types.

In r~cent y~ars, wi~ illcr~ ng emp~i5 C~ ergy cv,~ ,c.tio~, ~he r~c~cl~ng o~ used L~sv~ag~ con~ne~ and ot~r ~i~ila:r co~di~ie~ has beco~e an importa3lt ~ac~r in ~ con~er-ration e~for~:. M~re specifi~al1y, t~e L~e.~ 1in~ of a~ uminu~, glass and pl~tic con~i n~r~ ~as 3!1r 0~ 0 be es~rgy e~ i~ien'c, and e~r~ro~nt211y benefic-al.
In addition, nu~rous j urisdiction~ ha~re er~ac~ed ~a~d~'~ deposit la~s ~hich require d~po~ts Qn al1 L_~ &~
c~ ~. Such la~s cr~ate a~d~tional probl~ Eo~ ~c yr ~ l y ~ and burdens for t~o~ t~sl~ ~th collecting t~e cont~ners, paying t3~e ~ , and storing the re:LuL~ c~m~dities. A nu~er o~ mac~ ha~e been de~lop~d in th~ prior ar~ for ç~,o~r~ing ~e ~ nd recycling o~ rerage cont~ rs. For example, ~S~
ers 4~440,284, 4,573,641, 4,452,295, a~d 4,784,2Sl, ow~
~Y ~rr1~n~'S a~sign~, U.S. Pa~Qn~ ~u~ber ~,z48,38g, a~d Ger~an ~f~nl~ rift 1,947,72~ a~l r~late ~o ffl~cht~
~nd s~e~æ ~or autom~ted red~pt~on of used ~e~c ¢on~.2iners. While much pIO~l-ss h~ b~en m~de in the d~v~ pm~nt of e~ici~nt ~y~ for ~.~L~ing aAd eff~c~ing ~ cling of containers, a number of problems still rQm~in in th prior art. ~n parff~l~r~ in tho~e araas whR*Q
rev r~e v~n~in~ machin s ar~ u~ed to collect ~nd ~L~ ~ su~h ov..~nQrs, r~tail stor~ rs typically must lemoq- the crushQ~ or densifi~d commodit~e~ from th~ ma~hin~ and stor~
tb~m for l~ter ~ickup~ $~i~ create~ ~tor~ge probl~m~ for tho r~t~ r and uc~ up oth~rwia~ ~alu~ble retail or stor~g~

In add~tion, in ~me jurl~diction~, rot~i 1 9rs are TESHE -18. ~2.q~

W092/2~46 PC~/US92/01608 vending machine is inoperable, repairs must be made rapidly in orde~ to avoid disruption of the retailer~s operation to manually sort and store containers.
Another problem experienced with prior art sys~ems is the requirement for the retailer or other ~ervice agency to - .
frequently add money to machines which pay d~osit refunds or other monetary compensation for return,ed containers.
~ ccordingly it is an ob~ect of the present inven~ion to efficiently collect, densify and store large quantities of post consumer recyclable commoditie3 with a m;nim11m of service requirements.
It is a further ob~ect of the pre~ent invention to reduce the burdens of maint~; ni ng adequate ~upplie~ of coins or currency in the collection ~tations of a commodity collection and storage ~ystem.
It i~ an additional ob~ec~ of the pre~e~t invention to reduce the ~ncidence of brea~-in of the collection ~tations of a commodity collection and storage ~y~tem by utilizing an alternative to currency or coins.
A further ob~ect of the invention i8 to provide a commodity collection and ~torage ~y~t~n in whi~h the collection ~tations can automatically indicate when repairs are needed to a central control facility.
Additional ob~ec~ and advantage~ of the invention will be apparent from the de cription which follows, or may be learned by practic~ of the invention.
Disclosure of the In~ention To achieve the foregoing ob~ects and advantages, and in accordance with the purpose~ bf ~he invention as a embodied and broadly described herein, the multiple use commodity collection and storage system of the present invention comprises a plurality of remotely located collection stations, each for receiving a plurality of different ~.
predet~rm;ned post-consumer recyclable commodities. Each station includes a consumer selectable insert port f or receiving each different predetermined type or types of commodity; pre-selection means associated with each insert ., ~ ~ f . ~ s ~MP,_~OI~I c~A~ n;nen ~ , o ~ 4 port ~o~ a1~to~tlc lly ver~yin~ t ~ eo3~0dity is 0~ ~he pr~deter~n~d typ-.; D~an~ ~r ~n~ifying ~e com~oditie~; re~cei~O. in Q~ l ins~rt pc)rt ~nd v~rifi~
clection :~eans to be of ~e ~
system is c~ara~:teriæ~d by pre-s~ragre D~eanS ~ each st:ation inclu~ing a separate ~p;~ce ~or eac31 t:yps o~ com~odi~y, ~ansfer mea~; for au~ natically tr~ns~rri~g e~ah ~ adctermined type ~f den~i~ied c~mvdity from t~e de~sify~ng ~learl$ t;o ~ ;o~ r,~n~ sep~rate ~:pace in ~e ~ rag~
~e~-ns; bulk storage ~IRan9 re~t21y located ~ro~a t~e co~l~ction sta~ions, inclu~ a sQgr~gated s~oraqe area f o~
s~parately storsng e~ h y~ ~d~ ~ed type ~ densi_ ied commodi~; and p~ tiC ~llea~l5 for co..~,eying each dif~eren~
type o~ commod~ty from -~he pr~s~orage means ~o ~e bul}c storage ~Qan~ and cG~tinu~ly mai~t;iin~n~ t~e say~c~a~-ion of c:oDmodi~y types du~ing ~che ~o~yanc~.
~ he ~yst~n includees micr v~ 70r means ~r st~ring data c~ n~ o ~e co~oditi~s ~r~fie~ by the pr~-~ielect~on mean6; and ~eans ~or i~ g at lea~t one tok~3n in -e to ~e in~;ertion of a aommodit:y of ~ }. e.le~ ined ~he syste;~ a~so ~clu~hs a pl~ ty o~ comd~
a~llectio~ v~h~c:J~, each ve~icle ir~clucl~ng a ~1 -con~rtm~t an~ ~ean~ ~or au~atically lo~;n~ e ~e~sif~a~
coDImo~t~ of at l~ast o~ of the pr~et~d t~ from t~e bulk st:or2~e m~ ntc the 1~L com~ar~n~. It is pref~L~d tha~ 'chæ tr~ co~r~t of ~a~h ~e~iC~
includ~ a plurali~ of s~parate segr~gated ~one~, eac~ for rQ~ nq a di~ t ~r~ified ct~dity ~rom ~e bu~k ~to~ge ~an~.
rab~y, t~e tra~far mea~ incl~des Qither l or pnew~atic m~ans for oonv~ g t~e d~si~iæd co;~od~ti~s ~rom t~e densifyi~3g m~ns to t~ bu~ ~torage m~ans. It i~ 30 pref~rred ~a~ nclude s~ans ~or r~ ly acc~s$ing the ~ cr~ or ~S 0~ ea~L
~tati~ fo~ c~n~rally r~ading t~ ~zLta. ~rhe ~o~ ~or D~an~; m~Ly ~l~o store ~ata on the repair ~tate o~ ~Le 8UE~S 11 1 JTE S~EE-cMF, ~N cP~-Muncn n O~ ;l6- ?. 93.. ;.. l?.:l6 1202 ~oa 4400 - 4~,i2,~ 4~,.;; o 21(~9~0 -- 3~ --p~rticU~ a~ ~;t~tion, and t~ y ~l~o be r~ y ~oe r~mote7y ~CCÇ :~ing mo~s. T~e ~motely ;~ ;n,~
typic~lly inclucl~ a ~;~.t~1 ~rc~--;n~ unit for a:~lalyzing t~e data from ~e plurality of station~, and r~
commo~y colle~:tion vahicl2s, or r~pair per~ r~l to ~e statio~ n t~e b~sis of the da~a, TITU~E ~E'~

_MP. ~?N~t~A-~u~c~en C~ o- ~ 9~ ~ '? u? i~~ 4~ vi;i ~

21090S~

Eac~ o~ odity col~c~ion v~hic:les pr~5~erab~y ~ncluc~e~ vacuum ~tion ~anc; f or trans~erri~g ~a~ d~ii~d commod~ity ~rom t~e bUl~c st:Orage Dlelans to ~1~ ~;u~ n~; n~
s~eg~eg2~ted zo~e in th~ vehicl~. _ Tt '~ ; prefe_red that t~e tolce~ is~u~d by 'che t~k~n i~;sui~g means comprise a red~e~able vclt~h~, or ~u~.
~l~errlati~rely, ~e t~k~ could include cGirls or Each sta~ion prefera3;ly ~n~ludes C~ pr~nting D~eans for pr~t~ ~g and is~uing redeema~le Cc~ ~nOa te~
c~o~mod~ 8 rece~ d and ~rerif i ed b~r the ~L ~ select:ion ~aeans .
~ t is pr~f erred t~at ~he ~uLk ~;torag~ ~ea~lB i~clud~s at l~ast o~ storage bin remotely po~i~ioned in rela~ion ~o ~he .
station f or recei~ring commoditi~ from the ~a~is)n ~le ma~ ~e siz~ of ~ a~cio~ n~t4 l.i~5 . Al i_ernatively ~ th~ den~ 3d commoditie~: ~ay be transf~rred to a pres~orage mean~ including a se~a~e space f or e~ch ~ ~ned ~ype o~ Gommo~ y ~ and ~at~r transf e~r~ to t~he bulX storage mea~5 .
It is preI~rred that th~ ~ifferent coditie~ ~ncl~de all~minum, ~ r re in. ~FhQ glass may i~elu~
green, brown, a~d ~hi~e gla~s, a~d e~c~L station may in~lude ~oans for ~:eg~ a~ g the gla~;s into separa~ stora~e bin~
~or recei~ e y --~, bro:wn and whi~e glali;5~ y.
Rr; ~ f ~he ~w~ n~s ~e a~:ompany~r~g drawing~ ~ad i~2 and con:~titu~ 8 p~rt; of the s~;ficat~on~ e the pres~ntly pref~d e~im~ts of ~he i~ ~.l.ion ~nd, ~.oge~- with tha ~cr1p~ion~ se:~vQ to eYE~ n 'ch~
p~inc:L~)les of ~he i..v~Lion.
Fig. 1 i~ a pe~;p~ ~ o~ ~ t~pical col1~ction statio~ o~ ~ ~ultipl~ used co~modity collection and s~oraS~e ~ystem of the ~e~lnt i~ ~L~on, sho~ing ~eparat:~ r~;ae ~n~ ma~hir~ or c~s, glass contai~ers and pl~tic:
c:on~

E SUEF~

wos2/2~46 ~ 1~ 9 o ~ o P~T/US92/01608~

Fig. 2 is a perspective view of the bulk storage means of one-~tation of the present invention showing the separate storage bin corresponding to each of the reverse vending machines in Fig. l;
Fig. 3 is a perspective view, similar to,F g. 1, showing the reverse vending machines of one c61iection station configured for outdoor use;
Fig. 4 is a perspective view of another embo~i~ent of the present invention with the bulk storage bins aligned contiguous to the reverse vending machines;
Fig. 5 is a perspective view of an embodiment of the bulk storage means and transfer means of the present . invention particularly for use with cans;
Fig. 6 is a perspective view of the bulk storage means for use with polymer re~ins or plastic co~tainers and the associated means;
Fig. 7 is a perspective view of the bulk storage bin and associated pneumatic transfer means for u~e with the glass recycling machine for removing and storing clear glass;
Fig. 8 is a per~pective view of a storage bin and associated tran fer means for transferring and storing colored glass from the glass recycling machine;
Fig. 9 i8 a perspective view of a commodity collection vehicle for use with the Rystem of the invantion;
Figs. lOA and lOB are operational flow charts of the can collection machine used with the system of the invention;
Figs. llA and llB are operational flow charts of the glass collection machine used in the system of the present invention; and ' Figs. 12~ and 12B are operational flow charts of the plastic collection machine used in the system of the invention.
Fig. 13 is a block diagram schematically showing a plurality of collection stations, the remotely accessing means and the commodity collection vehicles of the present invention.

r~ g r ! ~, rMp~ 4-Mi~nc~en ~ ;lg- 2 ~3 ~ ,7;0? ;202 .40~ 44~U - 4~ ,O~.~ O

2109~0 B~t ~InA~ f~r ~y;~ ~ t~h-~ t -V~ On Refere~c:e will no~ ~ ~de i~ d~tail to the ~.e~~t pref~ d ~bo~m~nt~ o~ ~ Lion, ~ L ~_~ed i~ the acco~pa~y~g dr2~wlng~
q~ pr~e~t imrerltion is a ~?ltiple u~e codity collectio~ and storaga~ 5~;~ acaordance ~ith ~ae in~en~ion, ~he sytem ~o~rpr~ses a plurali~y o~E remot~ly loca~ed collec~ion sta~ion~, eac~ f or receiv~g a plurality dif e~ent prede~ermined post -,o, ~ mer re~ycla~le coD~od~ti~ .
In ac~ordance ~ith t~e invention, each s~tion includes a ~or~ ~er selec:ta~le ins2rt port for recei~ng each di~erent pr~determih~d type o~ co~modity; ~?re-~el~c~ion mea~s ~oclate~ wi'~ eac~ insert pc:r~ for auto~atically veri~ng ~at ar~ in~erted co~mnodi~y is o~ t~e pr~dete~m~nea type;
]l~an5 for d~sifying ~he cc,~6d~_ies r~c~ived i~ eac~ ert port ana v e~i~ied by t~e p~e-selectiorl ~eans to ~e o~ the predete~mined ~ype; c~aracterized ~ pr~s~orage mea~ in eac~
statio~ includLng a separa~ for eac~ ~ype of ommodity; t:r~sfer means for autom~tic:ally l~cu.~errins. ~
prede~rmine~ type of ~e~siSied coD~odi~ ~rs~m t;he aensifyi~g means to ~he cG~e~ n~ s~Lal.e spac~ he ~
~A:I~ne. bulX ~tor~ge me~ remo~ely loca~ed ~ L ~e eollection s~atic)Tis~ ~nclu~ng a s~ d ~ v~ a fc~r ~p~a~ly ~or~ng ¢ach prQde~r~ined 'cype o4 ~e~le;fied com~oaity; and pneumatic m~a~s ~or conveyiTlg each dii~f~rent ty~e of c:o~ 1;y ~rom thR pres~orage DL~ans 1:o the bu~k ~oraqe DI~S an~ eo~ti~,uo~ly main~so;n~n~ ~e sag~ o~ of th~ com~od~ty ty~ ng t~ er.
As sl~ow~ in Figs. 1 and 2, eac;h ~t:ation g~n~r~ly ~nclu~c~; a plurality o~ r~v~r ~ v~n~ing mac:hine~ 11, 1~ ;~d 13. E?ch ~Ch~ ! includes a ~ r~ ?le in~er'c por~
14, 15 an~ 1~ . Eac~ o' ~ese y~L ~ r~cei~ a diffeL~,L
yl~d~_(.enai~d type or typ~ of coDnn~dity. ~:n tilQ illl3s'crat~d eD~nt, port 1~ ~s c~L~ ed for rec~i~ring aluminu~ ~, po~t lS l~r~;Yes g~ con~; -rs, and p~rt 16 is c~n~igwd ~or r ceiving pl~;~ic or polynu~r re~ P~r) con~n~rs. ~e ~olym~ re~ln may inc:lud~, for ex~ , high ~nsity ~Mr._~lO~ PA hl~JnCllen 0~ 9~ . 1 ?: C8 ; 202 406 440~i 4~6~J~4C~

2109~8~ -p~lyethylen~, pol~ l~e, p~ rinyl chloride, or polyQthy~ rleph~ lat~ ( PET ) .
Ez~ch o~ , ll, 12 and 13, ~nclu~ a ~ront p~n~l 20, 21 ~nd ~2~ ~ith i~ ~.L.IctiO~; uld ac~a~ion t3wi~ches for use o4 .h~ ~a~-h~ne. The operation o~ ~uc}~
m~'h; n~ S d~scrii:~ in pxior pa~n~ of applicant ' s as~ignee, ~cluding ~.S. Patent In~ r3 4,784,2~1, 4,~2,295;
4,573,641: 4,440,28~; 4,34s,67~: 4,324,325: 4"46~,212;
4, 9~9, s~4 and 4, 579, 216 . Flgc . loA ~nd B, llA a~d E~ 3d 121 ~nd B illustra~e in :f low chart ~orm~ t~e v~r a~lon c~ each of the can, gla~s and pla~;~ic coliec:tion maCl~;neC~ ~c_l ivel~, typically us~d with the sy6~0m of t~e ~ention. These c~ re descr~ed more fully below.
As shown in ~ig . 1 t ~Ç~ inser~ port of eac~ mzlç~ i-n~ is config7~ed to receive t~e p~c~ar predete~r; ne?~3 comno~ity or co~mosli~ ssociat~d ~th ~t ~c~ino~
Within eac~ mac7~ 1}, 12 and 13~ and asso1:i2ted ~ith each o~ the in~;er~ 14, 1~, and 1~, is prc -^lec~ion m~an5 ~c~r automa~ically verifyi~g ~aa~ ns~ ommodity i~ o~ ~e ~ termin6ed 'cype~, Y~rious alter~_iY~ for t~e c s~ ti~n m~ans are ~i~ctosed ~ ~e patents of app7ic~nt's as5ig5~e~ ,s~ y ra:ferencs abo~e. For e5campla, an aco~stic ~ eQ~ ,. as disclosed i~ ~.S. Pat~n~
NC: . 4 ,784 ~ 2S1, t~e deE;C~tion Of Whi~h ~ S i ~ OL~V1C~d ~ein by re~L~ e"say s~e pr~id~ to ~ I~ a corrt~ r~
~d a l~er -c~nn~n~ m~ch~is~ may }9~ pro~id~d to ~can in~ sud as a ~ar code on a lab~l of ~e con~ e-r. 1 ligh~ ~;ource ~sse~ly, a~ o~d i~ ~.S. Pate~
Mo.l 4,gl9,534, ~he d~cription o~ ~ich is ~.~,v ~L~.ted h~ n by re~encQ, m~y be utiliz~d t:~ pa~;~ a lig~t b~
tllrough the eo~ to analyze tho c~a~a~r o~ l~ght tran~i~ted t~c,~l. the con~n~ la~ l; 7~ lt~;ity ~a~u~_l by ~irs _ and r~ ~on~ t a~alyz~rs ~ ~ . S . ~tent 7~rl ~c~t~or~ No~ 07~584,507 dbsc~ibes ~n ~o~Lic ~ol G~ c a~ray D~a~u2~t d~rice, ~hich ma~r b~ u~ed for id~nti~y~ng ~ntain~ d~scri~ion of whic~h is also inco~poratQd h~in by re~erenc~.

~U~STITIJTE SHEE

WQ92/2~K PCT/US92/01608 2~09 ~ - 8 -After the inserted commodity is verified as being of the predetermined type to be accepted by that particular machine, the commodity is accepted by the machine and transferred to a densifying means within the machine. For ~Y~mrle, the shredding meanC disclosed in U.S. Patent Application Serial No. 07/645,926 filed Janua~y-~5, l99l, and owned by applicant~s assignee, the description of which is incorporated herein by reference, may be utilized.
Applicants hereby incorporate the disclosure of that application herein by reference. Other densifying mechanisms may be utilized, such as crushers and comminuting devices similar to those disclosed in U.S. Patent Nos. 4,573,641 and 4,784,251, the descriptions of which are incorporated by reference herein.
As shown in Fig. 2, the bulk storage mean~ includes a segregated storage are for separately storing each predetermined type of densified commodity. In the embo~iment illuQtrated in Fig. 2, three Ftorage bins 30, 31 and 32, are connected to the machines ll, 12 and 13, respectively, by enclosed conduits 33, 34 snd 35. AS illustrated, the bins 30, 31 and 32 correspond to the commodities, cans, glass and plastic. Each of the storage bins 30, 31 and 32 includes an acc~ss ope~in~ 36, 37 and 38 for removing densified commodities from the storage bins.
As shown in Figs. 5, 6, 7 and 8, the transfer means of the present invention may include pnoumatic means for eo..veying the densified commodities from the densifying means to the bulk storage means. In the illustrated embodiment of Fig. 5, a transfer means and bulk storage bin for receiving densiified cans is shown. In Fig. 5, the bulk storage bin 30 is connected to an intake pipe 40 which leads to a hopper 4l disposed for receiving the densified cans from the densifying means. A blower 42 draws air and densified or shredded cans through the hopper 41 and the inlet pipe 40 into the bin 30.
An outlet tube 43 leads to the blower 42 for creating the suction effect. Based on the weight of the densified commodity, a one-horse power blower may be used. The inlet ;1 ' ! , W092/2~46 PCT/US92/0l6a8 ~1 09080 g pipe 40 is approximately three inches in diameter, and the outlet ~ipe 43 is four to six inches.
Fig. 6 illustrates a similar arrangement to Fi~. 5 for use in connection with plastic containers. In this arrangement, the storage bin 32 is also connected to a three inch diameter inlet pipe 50 leading ~o a hoppér S1 for receiving the densified or ~hredded plastic. The hopper ~1 is disposed for receiving the densified plas~ic from the densifying ~^~ns for the plastic machine 13. A blower 52 draws air and densified plastic through the hopper S1 and the inlet pipe 50 into the bin 32. The air continuas through the outlet pipe 53 back to the blower 52. In thi~ emh~ nt/ a one horse power blower may also be used in con~unction with a four to six inch outlet pipe and three in~h inlet pipe.
Figs. 7 and 8 are similar ill~strations of transfer mechanisms for use in connection with the glass machine.
Figs. 7 and 8 illu8trate the use of two storage bins, one for receiving clear gla8s, and one for rec~iving colored glass.
In Fig. 7 t the storage bin 31 is connec~ed to an inlet pipe 60 with a hopper 61 on the end theresf. The hopper Sl is positioned for receiving clear gla~ from the densifying mean8 of the machine 12. A blower 62 draws air and gla~s particle~ through the hopper 61 and the inlet pipe 60 into the storage bin 31. ~he air then exits the ~torage bin through the outlet pipe 63 to the blower 62. A second hopper 61A is illustrated which receives the colored gla8s, as shown in Fig. 8. In the ca~e of the glas~ particles, the inlet pipe is a three inch pipe, and the outlet pipe is approximately two inches in dlameter. However, a six inch elbow 64 is also utilized st the air exit from the bin 31.
As shown in Fig. 8, the colored glass is carried to a second storage bin 3lA by a separate blower 62A through the hopper 6lA and the inlet pipe 6OA. The air exits the storage bin 3lA through an outlet pipe 63A. In this case, a three inch inlet pipe and a two inch outlet pipe are used. Because of the heavier nature of the glass particles, a five horse w092/2~46 PCT/US92~01608 21D9~80 power Spencer Vortex blower is used with the arrangements shown in Figs. 7 and 8.
If desired, a single, more powerful blower (not shown) may be used, with microprocessor controlled valves (not shown) being arranged so that each different densified commodity may be transferred to the bulk stor~ge bins by the suction of the single blower. This arrangement saves space, expense, and unnecessary power consumption.
Each of the reverse vending machines 11, 12 and 13 includes a means for issuing at leas~ one token in response to the receipt of a predetermined commodity. For example, a push button on the front panel of each machine may be used to acti~ate a coin dispenser, token dispenser, or coupon printer installed within the machine. ~.YA~rles of such dispensers are described and illustrated in the patents of applicant's as~ignee, incorporated by reference herein. As shown in Fig. 1, a ca~h button 70 may be u ed to activate the dispenser and the toke~ may be is~ued through the slot 71.
In order to reduce the need for maintAining a supply of coins or currency in the machine, it i8 preferred that a coupon printing mesns be utilized for printing and issuing redeemable coupons or voucher~ in respon~e to the ~ommodities received and verified by the pre-selection means. These coupons can be latér exchanged for mer~h~ise or cash, thereby eliminating the ne~d for storing currency or coins in the ma~hine. This in turn leads to le~s break-ins of the machines as it becomes known that nothing of value can be removed from the machin~. Such coupon printin~ mechanisms are known in the art and may be readily incorporated in the machine by thase skilled in the art.
Each of the machines 11, 12 and 13, includes a microprocessor for storing data corresponding to the commodities ~erified by the pre-selection means, as described in the patents of applicant's assignee, incorporated by reference herein. For example, as described in U.S. Patent 4,579,216, the description of which is incorporated herein by reference, the machine may include a mechanism for reading W092/2~ ~ PCT/US92/01608 2 ~ O 8 ~
the universal product code from a particular container, or a means or acoustically determining the shape of the container to identify its source, as disclosed in U.S. Patent Application Serial No. 07/584,507 owned by applicant~s assignee, the description of which is also incorporated by reference hersin. As described in the ~216 p~tent, the microprocessor may communicate with a central processing unit in a central coordination facility to communicate data on the ~uantity and type of commodities collected. Based on this data, routing of vehicles to the particular stations in the system may be e~ficiently planned. In addition, each station may generate data indicating failure parsmeters in the machines and transmit that data to the central processing unit so that repair per~onnel may be efficien~ly dispatched.
The remote access may be done automatically by telephone so that no manual operation is required to obtain the necessary data from the collection stations.
If desired, each of the machines 11 t 12 and 13 may include prestorage means Lncluding a separate space for each predet~rr1ned type of commodity. For example, a limited size storage space may be provided in each machine, and the densified commodity may be periodically transferred to the bulk storage means if desired. The pre~torage means may include a chamber in the lower portion of the rever~e ven~ing machi~s 11, 12 and 13 for re~eiving the densified commodities directly from the densifying mesns. In this arrangem~nt, the hoppers 41, 51, 61 and 61A are arrangad in a lower portion of the prestorage area. Tran~fer to the bulk storage bins 30, 31, 31A and 32 can be effected automatically at piedetermined intervals, or when the prestorage area is filled to a predetermined capacity.
The system of the present invention preferably includes a plura~lty of commo~ity collection vehicles, each vehicle including a transport compartment and means for automatically loadin~ the densified commodity of at least one of the predetermined types from the bulk storage means into the transport compartment. As embodied herein, and as W092/2~6 PCT/VS92/01608 - 21~90~U - 12 -illustrated in Fig. 9, each commodity collection vehicle is a truck Q~ trailer 90 having a transport compartment 91 thereon. A vacuum suction apparatus 92 may be provided on the truck or trailer 90 for automatically transferring the densified commodity from the ~torage bin 30, 31, 32 to the vehicle 90. A plurality of separate segregated zones 93 may be pro~ided in the vehicle 90 for receiving each different densified commodity. In addition, hose couplings 94 into and out of each compartment, may be used for rapid attachment and detachment of the hose 95.
Further configurations for the stations are shown in Figs. 3 and 4. Fig. 3 depicts the machines 11, 12, and 13 in an outdoor storage environment, beneath a suitable awning or roof 80. In Fig. 4, the storage bins 30, 31 and 32 are axranged side-by-side with the reverse ven~ing machines 11, 12 and 13. In Fig. 4, an awning or roof 80 is alRo provided.
As shown in Figs. lOA, 9 through 12A, B, the reverse ven~ing machines 11, 12, and 13, generally operate according to the flow charts illustrated. In the case of the can coll~ction machine, the cu~tomer initiates the operation by facing the machine at block 101, and selecting whether product coupons are desired (102). If cGupons are chosen, one ~Ou~Gl~ will be issued by the machine for esch 8iX cans received by the machine (103). The consumer then in~erts the can into the machine (104), and the pre-selection means determines whether the can is aluminum (105). If the can is not aluminum, it is re~ected (106), and the consumer mu~t insert another can to continue. When an aluminum can is present, the machine read~ thè bar code on the can (107, 108). Thereafter, additional messages can be optionally printed for particular manufacturers, if desired (109, 110).
When the can has been determined as acceptable, it is fed to the can shredder for densifying and transfer to the storage bin 30 (111, 112, 113). If the storage bin 30 is full, the machine shuts downs and an error message appears (114, 115).
If the shredded can is properly transferred to the bulk storage bin 30, and the bin is not full, the customer may W092/20046 PCT/US92/01~08 , 2109080 insert the next can into the insert por~ 14 (116). In this case, the opera~ion starts again at block 104. When the customer has finished inserting all cans, a decision can be made to donate the proceeds (value or deposit refunds) to charity (118), or to receive a ~oucher for subsequent payment in cash (117). ~ ~
In the case of the glass collection machine, the operation is substantially similar, as shown in Figs. llA and llB. However, the glass machine hafi a protective door (201), and the customer may be required to rotate the con~ainer to allow for proper reading of the bar code label (202, 203, 204, 205). Another optional routine is shown in Fig. llA
regarding the acceptability of the container a~ a ~participating~ vendor (207, 208). Once the door is locked (209), the machine determines whether the glass is colored or clear (210). This det~r~ines which blower or valve will activate to transfer the crushed glass to the proper storage bin (211, 212). Also~ a determination is made by appropriate sensors whether the receiving bin has enough vacuum (213, 220). An error me~sage appears if the vacuum is too low (214, 225~. If the storage bin has sufficient vacuum, the bottle is crushed (215, 221) and blown into the sppropriate storage bin 31, 31A. However, there i8 an additional check on the Yacuum in the ~torage bin (216~ to determine if it is too high. If 80, the machine shuts down (217). If the vacuum is acceptable, and the s~orage bin i8 not full (218), the customar may in~ert ano~her container (222, 223), or request a payment ~oucher (224~. If the storage bin is full (219), the machine stops and ~ "full" me~sage appears.
i The pla~tic container machine 13 operates in substantially the same way a~ the glass machine 12, as shown in Figs. 12A and 12B. In particular, the insertion sequence and the bar code reading are the same. Thereafter, there is no color recognition step necessary, and the machine goes directly to the shredding or densifying process (308). If the storage bin 32 is full, the machine shuts down (312, 313~. Ho~evo~Eigrtcl~B~shows that the voucher may be issued ~ MF.VON.~P~-~un~n6n _5~ ;18- 2-~J; 17;~ ;2g~ 40~ 44~ 3~ 6~0~ c 2lO9~8~ .

~o~ t~e pl~ti c cont:a:fnQr ~v~n iX th~ m~ch~ n~ is out o~

3 1 4 ~ . q~is sa~e option c~ d wi~ t~e oth~r mar~ n~ desir~.
As i8 e~rid-nt from the a~ve, thQ ~y8~'~ t:~e p~
e~ion providcs f~r efficient and ad~ant~ ;~ co~odi~y ccllection and storag~ The ~y~te~ min;mizes t}:L~ need for manual ef~orts in removin~ and ~orin~ den~i~ied c~m~dit~es.
In addition, it il_.Lo~ e ~isual appea~ of t~e by a}l~g ~ al of t~e ~ulk ~t~rage ~rwa the i~med~ ate ~i~ it~r sf ~e macl-ine~ to 2~ re~t~ position wh~
may ~ ked Crom ~e c~ mer ' s view. ~he use r7~ prin~:ed coupons or ,rouc~ers ell . ~nates t~ cons~in~ ~a,u~ly of coinage or cu~rency. ~ailllxe or inoperatiYe time ~ay al~o be minimized s~ utilizing th~ rem~ely accessi~le ~icroprv~r~ r ,o o "~ . i cate dat~ on th~ m~ i n o~ ~ sn ~tate ~
addition, data on t~e s~atus o~ ~e. codi~y ~torage ~ins may ~ e~ely ~c~ e~ ~ n c~rder to e~icien~ly rou~e t~
commodi'~y c:ollection ~ehic~e~ to ~e colleat~on sta~ions where t~e 1:tor~g~ birls are ~ull or near ~ull.
As a resu:Lt, th9 btlrden o~ retailers t:~ m~m~ y s~rt con~ eræ~ store con~ n~s and supply mach;~C wi'ch coinage i~ greatly r~ c~ so, t~e sy~t~h all~ a r~tailer to m~in~ain a plo~ n~ wit~Lin a reta:il ou~let.
Accordingly, it is ~-~--ved ~at ~ ~ t iu~ n ents a ~ignif ic~ a~v~nce in ~e ~t~

W092/2~6 PCT/U~92~01608 9081) Addendum to Drawing Fi.gures 5-~

Figure 5 A = 120 6" PIPE
B = 14-3/4 6'1 PIPE ~'_ C = 9-1/2 6" PIPE
D = lO9-1/2 3'~ PIPE
E = 43-7/8 3" PIPE

Figure 6 A = 115 6" PIPE
B ~ 6-1/4 6" PIPE
C = 9-3/4 6" PIPE
D = 109-3/4 3" PIPE
E = 44-3/4 3" PIPE

Figure 7 A = 114 2" PIPE
B = 16-1/2 2" PIPE
C = 89-1/2 3i' PIPE
D = 1~-l/2 3" PIPE

Figure 8 A = 120 2" PIPE
B = ~ 2" PIPE
C = 89-1/2 3" PIPE
D = 34 3" PIPE
E = 9-5/8 6" PIPE

~._. .
. ., . . .

UBSTIT~TE 5~iE~
~. .. ... ~

Claims (20)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A multiple use commodity collection and storage system, comprising:
a plurality of collection stations, each station for receiving a plurality of different predetermined post-consumer recyclable commodities, each station including:
a. a plurality of consumer selectable insert ports, each port for receiving one different predetermined type of commodity;
b. preselection means associated with each insert port for automatically verifying that an inserted commodity is of the predetermined type; and c. means for densifying the commodities received in each insert port and verified by the preselection means to be of the predetermined type;
and bulk storage means remotely located from the collection stations, including a segregated storage area for separately storing each predetermined type of densified commodity;
the system being characterized by prestorage means in each station including a separate space for each predetermined type of commodity; and pneumatic means for conveying each predetermined type of commodity from the prestorage means to the bulk storage means and continuously maintaining the segregation of the commodity types during the conveyance, the pneumatic means including at least one intake pipe in communication with the prestorage means and the bulk storage means, suction means for creating suction, and at least one outlet tube in communication with the storage means and the suction means, the suction means drawing each predetermined type of densified commodity from the prestorage means to the storage means through the intake pipe via suction.

2. The system of claim 1 characterized by a plurality of commodity collection vehicles, each vehicle including a transport compartment and means for automatically loading the densified commodity of at least one of the predetermined types from the bulk storage means into the transport compartment.

3. The system of claim 2 characterized in that the trans-port compartment of each vehicle includes a plurality of separate segregated zones, each for receiving a different densified commodity from the bulk storage means.

4. The system of claim 3 characterized in that the predetermined commodities include aluminum, glass and plastic containers.

5. The system of claim 1, characterized in that each collection station further includes microprocessor means for storing data corresponding to the commodities verified by the preselection means.

6. The system of claim 5, characterized by means for remotely accessing the microprocessor means of each station for centrally reading the data.

7. The system of claim 6 characterized in that the remotely accessing means includes a central processing unit for analyzing the data from the plurality of stations, and routing the commodity collection vehicles to the stations on the basis of the data.

8. The system of claim 6 characterized in that each station also includes failure means for generating failure data when the station is inoperable, the remotely accessing means including a central processing unit for receiving the failure data to indicate to an operator that the station is inoperable.

9. The system of claim 2 characterized in that the commodity collection vehicles each include vacuum suction means for transferring each densified commodity from the bulk storage means to the corresponding segregated zone in the vehicle.

10. The system of claim 1 characterized in that each collection station further includes means for issuing at least one token in response to the receipt of a predetermined commodity.

11. The system of claim 10 characterized in that the token includes a redeemable voucher.

12. The system of claim 10 characterized in that the token includes a coupon.

13. The system of claim 10 characterized in that the token includes a coin.

14. The system of claim 1 characterized in that each station also includes coupon printing means for printing and issuing redeemable coupons in response to commodities received and verified by the preselection means.

15. The system of claim 1 characterized in that the bulk storage means includes at least one storage bin remotely positioned in relation to the station for receiving commodities from the station, the size of each station being within predetermined limits.

16. The system of claim 1 characterized in that the different commodities include aluminum, glass, and polymer resin.

17. The system of claim 16, characterized in that the glass includes green, brown and white glass, and the stations each include means for segregating the glass into separate storage bins for receiving the green, brown and white glass, respectively.

18. The system of claim 16 characterized in that the polymer resin includes high density polyethylene, polypropylene, polyvinyl chloride, and polyethylene terephthalate (PET).

19. The system of claim 2, characterized in that each collection station further includes microprocessor means for storing data corresponding to the commodities verified by the preselection means.

20. The system of claim 19, characterized by means for remotely accessing the microprocessor means of each station for centrally reading the data.